Free access
Ann. For. Sci.
Volume 66, Number 4, June 2009
Article Number 405
Number of page(s) 9
Published online 04 June 2009
References of  Ann. For. Sci. 66 (2009) 405
  1. Bernardo-Gil G., Oneto C., Antunes P., Rodrigues M.F., and Empis J.M., 2001. Extraction of lipids from cherry seed oil using supercritical carbon dioxide. Eur. Food Res. Technol. 212: 170–174 [CrossRef].
  2. Bonner F.T., 1984. Glossary of seed germination terms for tree seed workers. Gen. Tech. Rep. SO-49. New Orleans, USDA forest service, Southern forest experiment station, 4 p.
  3. Brison M., de Boucaud M.T., and Dosba F., 1995. Cryopreservation of in vitro grown shoot tips of two interspecific Prunus rootstocks. Plant Sci. 105: 235–242 [CrossRef].
  4. Crane J., Miller A.L., Roekel J.W., and Walters C., 2003. Triacylglycerols determine the unusual storage physiology of Cuphea seed. Planta 217: 699–708 [PubMed] [CrossRef].
  5. Crane J., Kovach D.A., Gardner C.A., and Walters C., 2006. Triacylglycerol phase and intermediate seed storage physiology: a study of Cuphea carthagenesis. Planta 223: 1081–1089 [PubMed] [CrossRef].
  6. Ellis R.H., Hong T.D., and Roberts E.H., 1990. An intermediate category of seed storage behaviour? I. Coffee. J. Exp. Bot. 41: 1167–1174 [CrossRef].
  7. FAO/IPGRI., 1994. Genebank standards. Food and agriculture organization of the united nations/international plant genetic resources institute, Rome, Italy, 141 p.
  8. Fernández M., Marcos C., Tapias R., Ruiz F., and López G., 2007. Nursery fertilisation affects the frost-tolerance and plant quality of Eucalyptus globulus Labill. cuttings. Ann. For. Sci. 64: 865–873 [EDP Sciences] [CrossRef].
  9. Gordon A.G. and Rowe D.C.F., 1982. Seed manual for trees and shrubs. For. Comm. Bull. 59. London United Kingdom Forestry Commission. 1–132.
  10. Graham S.A., 1988. Revision of Cuphea section Heterodon (Lythraceae). Syst. Bot. Mono. 20: 1–168 [CrossRef].
  11. Grenier-de March G., de Boucaud M.T., and Chmielarz P., 2005. Cryopreservation of Prunus avium L. embryogenic tissues. Cryo Lett. 26: 341–348.
  12. Grisez T.J., 1974. Prunus L. In: Seeds of woody plants in the United States. Agriculture Handbook No 450. Washington DC: Forest Service, USDA. 658–673.
  13. Grześkowiak H. and Suszka B., 1983. Storage of partially after-ripened and dried mazzard. (Prunus avium L.) seeds. Arbor. Kórnickie 28: 261–281.
  14. Grześkowiak K.H., Miara B., and Suszka B., 1983. Long-term storage of seeds of Rosaceae species used as rootstock for cherry, plum, apple and pear cultivars. Arbor. Kórnickie 28: 283–320.
  15. Helliot B. and de Boucaud M.T., 1997. Effect of various parameters on the survival of cryopreserved Prunus Ferlenain in vitro shoot tips. Cryo Lett. 18:133–142.
  16. Hoekstra F.A., Golovina E.A., and Buitink J., 2001. Mechanisms of plant desiccation tolerance. Trends Plant Sci. 6: 431–438 [PubMed] [CrossRef].
  17. Jacobs D.F., Wilson B.C., Ross-Davis A.L., and Davis A.S., 2008. Cold hardiness and transplant response of Juglans nigra seedlings subjected to alternative storage regimes. Ann. For. Sci. 65: 606 [EDP Sciences] [CrossRef].
  18. Jensen M. and Eriksen E.N., 2001. Development of primary dormancy in seeds of Prunus avium during maturation. Seed Sci. Technol. 29: 301–320.
  19. Jones S.K., Gosling P.G., and Ellis R.H., 1998. Reimposition of conditional dormancy during air-dry storage of prechilled Sitka spruce seeds. Seed Sci. Res. 8: 113–122.
  20. Kamel S. and Kakuda Y., 1992. Characterization of the seed oil and meal from apricot, cherry, nectarine, peach and plum. J. Am. Oil Chem. Soc. 69: 492–494 [CrossRef].
  21. Kamiński W., 1974. Spoczynek wtórny nasion jabłoni. II. Wpşyw warunków tlenowych. III. [Secondary dormancy of apple seeds II. Influence of oxygen conditions III]. Prace Inst. Sad. 18: 9–16 and 17–24.
  22. Katano M. and Irie R., 1991. Shoot tip culture of Japanese flowering cherry (Prunus yedoenisi Matsum.) and a possible cryopreservation of shoot tip in liquid nitrogen. Proc. Fac. Kyusyu Univ. 10: 17–27.
  23. Kuhn A.J., Liepe K., and Schröder W.H., 1995. An improved shock freezing method fort he cryogenic storage of seeds. IUFRO XX World Congress, 6–12 August, Tampere, Finland, Poster 115.
  24. Lee C.S., Chien C.T., Lin C.H., Chiu Y.Y., and Yang Y.S., 2006. Protein changes between dormant and dormancy-broken seeds of Prunus campanulata Maxim. Proteomics 6: 4147–4154 [PubMed] [CrossRef].
  25. Luis V.C., Taschler D., Hacker J., Jimenez M.S., Wieser G., and Neuner G., 2007. Ice nucleation and frost resistance of Pinus canariensis seedlings bearing needles in three different developmental states. Ann. For. Sci. 64: 177–182 [EDP Sciences] [CrossRef].
  26. Miura K. and Araki H., 1999. Effect of temperature during the ripening period on the induction of secondary dormancy in rice seeds (Oryza sativa L.). Breed. Sci. 49: 7–10.
  27. Niino T., Tashiro K., Suzuki M., Ohuchi S., Magoshi J., and Akihama T., 1997. Cryopreservation of in vitro grown shoot tips of cherry and sweet cherry by one-step vitrification. Sci. Hortic.-Amsterdam 70: 155–163 [CrossRef].
  28. Nonogaki H., 2006. Seed germination – the biochemical and molecular mechanisms. Breed. Sci. 56: 93–105 [CrossRef].
  29. Pence V.C., 1991. Cryopreservation of seeds of Ohio native plants and related species. Seed Sci. Technol. 19: 235–251.
  30. Roberts E.H., 1973. Predicting the storage life of seeds. Seed Sci. Technol. 1: 499–514.
  31. Sebök J., 1968. Treatment of cherry rootstock seeds stored for several years. Kert. Szöl. Föisk. Közlem. 32: 83–88.
  32. Shatnawi M.A., Engelmann F., Frattarelli A., and Damiano C., 1999. Cryopreservation of apices of in vitro plantlets of almond (Prunus dulcis Mill.). Cryo Lett. 20: 13–20.
  33. Small D.M., 1986. The physical chemistry of lipids, from alkanes to phospholipids. Handbook of Lipid Res. 4. Plenum Press, New York. pp. 256–284.
  34. Soloveva M.A., 1966. Long-term preservation of seeds of fruit crops. Reps. Soviet. Sci. 17th Int. Hort. Congr., pp. 258–266.
  35. Stanwood P.C., 1985. Cryopreservation of seed germplasm for genetic conservation. In: Kartha K.K. (Ed.), Cryopreservation of plant cells and organs. CRC Press, Boca Raton, Florida, pp. 199–226.
  36. Stephen J.R., Dent K.C., and Finch-Savage W.E., 2003. A cDNA encoding a cold-induced glycine-rich RNA binding protein from Prunus avium expressed in embryonic axes. Gene 320: 177–183 [PubMed] [CrossRef].
  37. Suszka B., 1962. Wpływ czynnika termicznego na ustêpowanie spoczynku nasion czereIJni dzikiej [Influence of thermal factor on dormancy breaking of mazzard cherry (Prunus avium L.) seeds]. Arbor. Kórnickie 7: 189–275.
  38. Suszka B., 1967. Study on seed dormancy and germination of different Prunus species. Arbor. Kórnickie 12: 221–282.
  39. Suszka B., 1970. Wieloletnie przechowywanie nasion czereśni dzikiej (Prunus avium L.) [Storage of mazzard cherry (Prunus avium L.) seeds for several years]. Arbor. Kórnickie 15: 129–138.
  40. Suszka B., 1975. Cold storage of already after-ripened beech (Fagus silvatica L.) seeds. Arbor. Kórnickie 20: 299–315.
  41. Suszka B., 1976. Increase of germinative capacity of mazzard cherry (Prunus avium L.) seeds through the induction of secondary dormancy. Arbor. Kórnickie 21: 257–270.
  42. Suszka B., Muller C., and Bonnet-Masimbert M., 1996. Seeds of forest broadleaves from harvest to sowing. Paris, INRA. 1–294.
  43. Touchell D.H. and Dixon K.W., 1993. Cryopreservation of seed of Western Australian native species. Biodivers. Conserv. 2: 594–602 [CrossRef].
  44. Towill L.E. and Forsline P.L., 1999. Cryopreservation of sour cherry (Prunus ceraceus L.) using a dormat vegetative bud method. Cryo Lett. 20: 215–222.
  45. Tylkowski T, 1995. Rozmnażanie generatywne. In: Jesion wyniosły (Fraxinus excelsior L.) [Generative propagation in European Ash]. Sorus, Poznań-Kórnik. Nasze drzewa leśne [Our forest trees] 17: 157–200.
  46. Tylkowski T., 1998. Przezwyciężanie spoczynku nasion jesionu wyniosłego (Fraxinus excelsior L.) i lipy drobnolistnej (Tilia cordata Mill.) [ Breaking of dormancy of European Ash (Fraxinus excelsior L.) and small-leaved lime (Tilia cordata Mill.) seeds. I.Z. Bartkowiak, Poznań, 1–64.
  47. Walters C., Wheeler L., and Stanwood P., 2004. Longevity of cryogenically stored seeds. Cryobiology 48: 229–244 [PubMed] [CrossRef].
  48. Wang B.S.P, Charest P.J., and Downie B., 1993. Ex situ storage of seeds, pollen and in vitro cultures of perennial woody plant species. FAO Forestry Paper 113, FAO, Rome, Italy, 83 p.